1 /* 2 * Copyright (c) 1996, 2010, Oracle and/or its affiliates. All rights reserved. 3 */ 4 5 #include "mglueP.h" 6 #include "gssapiP_generic.h" 7 #include <stdio.h> 8 #ifdef HAVE_STDLIB_H 9 #include <stdlib.h> 10 #endif 11 #include <string.h> 12 #include <errno.h> 13 14 #include "k5-platform-store_32.h" 15 #include "k5-platform-store_16.h" 16 /* 17 * SUNW17PACresync 18 * MIT has diff names for these GSS utilities. Solaris needs to change 19 * them globally to get in sync w/MIT. 20 * Revisit for full 1.7 resync. 21 */ 22 #define gssint_get_modOptions __gss_get_modOptions 23 #define gssint_der_length_size der_length_size 24 #define gssint_get_der_length get_der_length 25 #define gssint_put_der_length put_der_length 26 #define gssint_get_mechanism __gss_get_mechanism 27 #define gssint_get_mechanism_cred __gss_get_mechanism_cred 28 #define gssint_copy_oid_set gss_copy_oid_set 29 #define gssint_get_mech_type __gss_get_mech_type 30 #define gssint_export_internal_name __gss_export_internal_name 31 #define gssint_release_internal_name __gss_release_internal_name 32 #define gssint_convert_name_to_union_name __gss_convert_name_to_union_name 33 #define gssint_import_internal_name __gss_import_internal_name 34 #define gssint_display_internal_name __gss_display_internal_name 35 36 37 #define MSO_BIT (8*(sizeof (int) - 1)) /* Most significant octet bit */ 38 39 extern gss_mechanism *gssint_mechs_array; 40 41 /* 42 * This file contains the support routines for the glue layer. 43 */ 44 45 /* 46 * get_der_length: Givin a pointer to a buffer that contains a DER encoded 47 * length, decode the length updating the buffer to point to the character 48 * after the DER encoding. The parameter bytes will point to the number of 49 * bytes that made up the DER encoding of the length originally pointed to 50 * by the buffer. Note we return -1 on error. 51 */ 52 int 53 gssint_get_der_length(unsigned char **buf, unsigned int buf_len, unsigned int *bytes) 54 { 55 /* p points to the beginning of the buffer */ 56 unsigned char *p = *buf; 57 int length, new_length; 58 unsigned int octets; 59 60 if (buf_len < 1) 61 return (-1); 62 63 /* We should have at least one byte */ 64 *bytes = 1; 65 66 /* 67 * If the High order bit is not set then the length is just the value 68 * of *p. 69 */ 70 if (*p < 128) { 71 *buf = p+1; /* Advance the buffer */ 72 return (*p); /* return the length */ 73 } 74 75 /* 76 * if the High order bit is set, then the low order bits represent 77 * the number of bytes that contain the DER encoding of the length. 78 */ 79 80 octets = *p++ & 0x7f; 81 *bytes += octets; 82 83 /* See if the supplied buffer contains enough bytes for the length. */ 84 if (octets > buf_len - 1) 85 return (-1); 86 87 /* 88 * Calculate a multibyte length. The length is encoded as an 89 * unsigned integer base 256. 90 */ 91 for (length = 0; octets; octets--) { 92 new_length = (length << 8) + *p++; 93 if (new_length < length) /* overflow */ 94 return (-1); 95 length = new_length; 96 } 97 98 *buf = p; /* Advance the buffer */ 99 100 return (length); 101 } 102 103 /* 104 * der_length_size: Return the number of bytes to encode a given length. 105 */ 106 unsigned int 107 gssint_der_length_size(unsigned int len) 108 { 109 int i; 110 111 if (len < 128) 112 return (1); 113 114 for (i = 0; len; i++) { 115 len >>= 8; 116 } 117 118 return (i+1); 119 } 120 121 /* 122 * put_der_length: Encode the supplied length into the buffer pointed to 123 * by buf. max_length represents the maximum length of the buffer pointed 124 * to by buff. We will advance buf to point to the character after the newly 125 * DER encoded length. We return 0 on success or -l it the length cannot 126 * be encoded in max_len characters. 127 */ 128 int 129 gssint_put_der_length(unsigned int length, unsigned char **buf, unsigned int max_len) 130 { 131 unsigned char *s, *p; 132 unsigned int buf_len = 0; 133 int i, first; 134 135 /* Oops */ 136 if (buf == 0 || max_len < 1) 137 return (-1); 138 139 s = *buf; 140 141 /* Single byte is the length */ 142 if (length < 128) { 143 *s++ = length; 144 *buf = s; 145 return (0); 146 } 147 148 /* First byte contains the number of octets */ 149 p = s + 1; 150 151 /* Running total of the DER encoding length */ 152 buf_len = 0; 153 154 /* 155 * Encode MSB first. We do the encoding by setting a shift 156 * factor to MSO_BIT (24 for 32 bit words) and then shifting the length 157 * by the factor. We then encode the resulting low order byte. 158 * We subtract 8 from the shift factor and repeat to ecnode the next 159 * byte. We stop when the shift factor is zero or we've run out of 160 * buffer to encode into. 161 */ 162 first = 0; 163 for (i = MSO_BIT; i >= 0 && buf_len <= max_len; i -= 8) { 164 unsigned int v; 165 v = (length >> i) & 0xff; 166 if ((v) || first) { 167 buf_len += 1; 168 *p++ = v; 169 first = 1; 170 } 171 } 172 if (i >= 0) /* buffer overflow */ 173 return (-1); 174 175 /* 176 * We go back now and set the first byte to be the length with 177 * the high order bit set. 178 */ 179 *s = buf_len | 0x80; 180 *buf = p; 181 182 return (0); 183 } 184 185 186 /* 187 * glue routine for get_mech_type 188 * 189 */ 190 191 OM_uint32 gssint_get_mech_type_oid(OID, token) 192 gss_OID OID; 193 gss_buffer_t token; 194 { 195 unsigned char * buffer_ptr; 196 int length; 197 198 /* 199 * This routine reads the prefix of "token" in order to determine 200 * its mechanism type. It assumes the encoding suggested in 201 * Appendix B of RFC 1508. This format starts out as follows : 202 * 203 * tag for APPLICATION 0, Sequence[constructed, definite length] 204 * length of remainder of token 205 * tag of OBJECT IDENTIFIER 206 * length of mechanism OID 207 * encoding of mechanism OID 208 * <the rest of the token> 209 * 210 * Numerically, this looks like : 211 * 212 * 0x60 213 * <length> - could be multiple bytes 214 * 0x06 215 * <length> - assume only one byte, hence OID length < 127 216 * <mech OID bytes> 217 * 218 * The routine fills in the OID value and returns an error as necessary. 219 */ 220 221 if (OID == NULL) 222 return (GSS_S_CALL_INACCESSIBLE_WRITE); 223 224 if ((token == NULL) || (token->value == NULL)) 225 return (GSS_S_DEFECTIVE_TOKEN); 226 227 /* Skip past the APP/Sequnce byte and the token length */ 228 229 buffer_ptr = (unsigned char *) token->value; 230 231 if (*(buffer_ptr++) != 0x60) 232 return (GSS_S_DEFECTIVE_TOKEN); 233 length = *buffer_ptr++; 234 235 /* check if token length is null */ 236 if (length == 0) 237 return (GSS_S_DEFECTIVE_TOKEN); 238 239 if (length & 0x80) { 240 if ((length & 0x7f) > 4) 241 return (GSS_S_DEFECTIVE_TOKEN); 242 buffer_ptr += length & 0x7f; 243 } 244 245 if (*(buffer_ptr++) != 0x06) 246 return (GSS_S_DEFECTIVE_TOKEN); 247 248 OID->length = (OM_uint32) *(buffer_ptr++); 249 OID->elements = (void *) buffer_ptr; 250 return (GSS_S_COMPLETE); 251 } 252 253 /* 254 * The following mechanisms do not always identify themselves 255 * per the GSS-API specification, when interoperating with MS 256 * peers. We include the OIDs here so we do not have to link 257 * with the mechanism. 258 */ 259 static gss_OID_desc gss_ntlm_mechanism_oid_desc = 260 {10, (void *)"\x2b\x06\x01\x04\x01\x82\x37\x02\x02\x0a"}; 261 static gss_OID_desc gss_spnego_mechanism_oid_desc = 262 {6, (void *)"\x2b\x06\x01\x05\x05\x02"}; 263 static gss_OID_desc gss_krb5_mechanism_oid_desc = 264 {9, (void *)"\x2a\x86\x48\x86\xf7\x12\x01\x02\x02"}; 265 266 #define NTLMSSP_SIGNATURE "NTLMSSP" 267 268 OM_uint32 gssint_get_mech_type(OID, token) 269 gss_OID OID; 270 gss_buffer_t token; 271 { 272 /* Check for interoperability exceptions */ 273 if (token->length >= sizeof(NTLMSSP_SIGNATURE) && 274 memcmp(token->value, NTLMSSP_SIGNATURE, 275 sizeof(NTLMSSP_SIGNATURE)) == 0) { 276 *OID = gss_ntlm_mechanism_oid_desc; 277 } else if (token->length != 0 && 278 ((char *)token->value)[0] == 0x6E) { 279 /* Could be a raw AP-REQ (check for APPLICATION tag) */ 280 *OID = gss_krb5_mechanism_oid_desc; 281 } else if (token->length == 0) { 282 *OID = gss_spnego_mechanism_oid_desc; 283 } else { 284 return gssint_get_mech_type_oid(OID, token); 285 } 286 287 return (GSS_S_COMPLETE); 288 } 289 290 291 /* 292 * Internal routines to get and release an internal mechanism name 293 */ 294 295 #if 0 /* SUNW17PACresync */ 296 #include "mglueP.h" 297 #endif 298 299 OM_uint32 gssint_import_internal_name (minor_status, mech_type, union_name, 300 internal_name) 301 OM_uint32 *minor_status; 302 gss_OID mech_type; 303 gss_union_name_t union_name; 304 gss_name_t *internal_name; 305 { 306 OM_uint32 status; 307 gss_mechanism mech; 308 309 mech = gssint_get_mechanism (mech_type); 310 if (mech) { 311 if (mech->gss_import_name) { 312 status = mech->gss_import_name ( 313 mech->context, /* SUNW17PACresync */ 314 minor_status, 315 union_name->external_name, 316 union_name->name_type, 317 internal_name); 318 if (status != GSS_S_COMPLETE) 319 map_error(minor_status, mech); 320 } else 321 status = GSS_S_UNAVAILABLE; 322 323 return (status); 324 } 325 326 return (GSS_S_BAD_MECH); 327 } 328 329 OM_uint32 gssint_export_internal_name(minor_status, mech_type, 330 internal_name, name_buf) 331 OM_uint32 *minor_status; 332 const gss_OID mech_type; 333 const gss_name_t internal_name; 334 gss_buffer_t name_buf; 335 { 336 OM_uint32 status; 337 gss_mechanism mech; 338 gss_buffer_desc dispName; 339 gss_OID nameOid; 340 unsigned char *buf = NULL; 341 const unsigned char tokId[] = "\x04\x01"; 342 const unsigned int tokIdLen = 2; 343 const int mechOidLenLen = 2, mechOidTagLen = 1, nameLenLen = 4; 344 int mechOidDERLen = 0; 345 int mechOidLen = 0; 346 347 mech = gssint_get_mechanism(mech_type); 348 if (!mech) 349 return (GSS_S_BAD_MECH); 350 351 if (mech->gss_export_name) { 352 status = mech->gss_export_name( 353 mech->context, /* SUNW17PACresync */ 354 minor_status, 355 internal_name, 356 name_buf); 357 if (status != GSS_S_COMPLETE) 358 map_error(minor_status, mech); 359 return status; 360 } 361 362 /* 363 * if we are here it is because the mechanism does not provide 364 * a gss_export_name so we will use our implementation. We 365 * do required that the mechanism define a gss_display_name. 366 */ 367 if (!mech->gss_display_name) 368 return (GSS_S_UNAVAILABLE); 369 370 /* 371 * NOTE: RFC2743 (section 3.2) governs the format of the outer 372 * wrapper of exported names; the mechanisms' specs govern 373 * the format of the inner portion of the exported name 374 * and, for some (e.g., RFC1964, the Kerberos V mech), a 375 * generic default as implemented here will do. 376 * 377 * The outer wrapper of an exported MN is: 2-octet tok Id 378 * (0x0401) + 2-octet network-byte order mech OID length + mech 379 * oid (in DER format, including DER tag and DER length) + 380 * 4-octet network-byte order length of inner portion + inner 381 * portion. 382 * 383 * For the Kerberos V mechanism the inner portion of an exported 384 * MN is the display name string and ignores the name type OID 385 * altogether. And we hope this will be so for any future 386 * mechanisms also, so that factoring name export/import out of 387 * the mech and into libgss pays off. 388 */ 389 if ((status = mech->gss_display_name( 390 mech->context, 391 minor_status, 392 internal_name, 393 &dispName, 394 &nameOid)) 395 != GSS_S_COMPLETE) { 396 map_error(minor_status, mech); 397 return (status); 398 } 399 400 /* determine the size of the buffer needed */ 401 mechOidDERLen = gssint_der_length_size(mech_type->length); 402 name_buf->length = tokIdLen + mechOidLenLen + 403 mechOidTagLen + mechOidDERLen + 404 mech_type->length + 405 nameLenLen + dispName.length; 406 if ((name_buf->value = (void*)malloc(name_buf->length)) == 407 (void*)NULL) { 408 name_buf->length = 0; 409 (void) gss_release_buffer(&status, &dispName); 410 return (GSS_S_FAILURE); 411 } 412 413 /* now create the name ..... */ 414 buf = (unsigned char *)name_buf->value; 415 (void) memset(name_buf->value, 0, name_buf->length); 416 (void) memcpy(buf, tokId, tokIdLen); 417 buf += tokIdLen; 418 419 /* spec allows only 2 bytes for the mech oid length */ 420 mechOidLen = mechOidDERLen + mechOidTagLen + mech_type->length; 421 store_16_be(mechOidLen, buf); 422 buf += 2; 423 424 /* 425 * DER Encoding of mech OID contains OID Tag (0x06), length and 426 * mech OID value 427 */ 428 *buf++ = 0x06; 429 if (gssint_put_der_length(mech_type->length, &buf, 430 (name_buf->length - tokIdLen -2)) != 0) { 431 name_buf->length = 0; 432 free(name_buf->value); 433 (void) gss_release_buffer(&status, &dispName); 434 return (GSS_S_FAILURE); 435 } 436 437 (void) memcpy(buf, mech_type->elements, mech_type->length); 438 buf += mech_type->length; 439 440 /* spec designates the next 4 bytes for the name length */ 441 store_32_be(dispName.length, buf); 442 buf += 4; 443 444 /* for the final ingredient - add the name from gss_display_name */ 445 (void) memcpy(buf, dispName.value, dispName.length); 446 447 /* release the buffer obtained from gss_display_name */ 448 (void) gss_release_buffer(minor_status, &dispName); 449 return (GSS_S_COMPLETE); 450 } /* gssint_export_internal_name */ 451 452 OM_uint32 gssint_display_internal_name (minor_status, mech_type, internal_name, 453 external_name, name_type) 454 OM_uint32 *minor_status; 455 gss_OID mech_type; 456 gss_name_t internal_name; 457 gss_buffer_t external_name; 458 gss_OID *name_type; 459 { 460 OM_uint32 status; 461 gss_mechanism mech; 462 463 mech = gssint_get_mechanism (mech_type); 464 if (mech) { 465 if (mech->gss_display_name) { 466 status = mech->gss_display_name ( 467 mech->context, 468 minor_status, 469 internal_name, 470 external_name, 471 name_type); 472 if (status != GSS_S_COMPLETE) 473 map_error(minor_status, mech); 474 } else 475 status = GSS_S_UNAVAILABLE; 476 477 return (status); 478 } 479 480 return (GSS_S_BAD_MECH); 481 } 482 483 OM_uint32 gssint_release_internal_name (minor_status, mech_type, internal_name) 484 OM_uint32 *minor_status; 485 gss_OID mech_type; 486 gss_name_t *internal_name; 487 { 488 OM_uint32 status; 489 gss_mechanism mech; 490 491 mech = gssint_get_mechanism (mech_type); 492 if (mech) { 493 if (mech->gss_release_name) { 494 status = mech->gss_release_name ( 495 mech->context, 496 minor_status, 497 internal_name); 498 if (status != GSS_S_COMPLETE) 499 map_error(minor_status, mech); 500 } else 501 status = GSS_S_UNAVAILABLE; 502 503 return (status); 504 } 505 506 return (GSS_S_BAD_MECH); 507 } 508 509 OM_uint32 gssint_delete_internal_sec_context (minor_status, 510 mech_type, 511 internal_ctx, 512 output_token) 513 OM_uint32 *minor_status; 514 gss_OID mech_type; 515 gss_ctx_id_t *internal_ctx; 516 gss_buffer_t output_token; 517 { 518 OM_uint32 status; 519 gss_mechanism mech; 520 521 mech = gssint_get_mechanism (mech_type); 522 if (mech) { 523 if (mech->gss_delete_sec_context) 524 status = mech->gss_delete_sec_context ( 525 mech->context, /* SUNW17PACresync */ 526 minor_status, 527 internal_ctx, 528 output_token); 529 else 530 /* SUNW17PACresync - map error here? */ 531 status = GSS_S_UNAVAILABLE; 532 533 return (status); 534 } 535 536 return (GSS_S_BAD_MECH); 537 } 538 539 /* 540 * This function converts an internal gssapi name to a union gssapi 541 * name. Note that internal_name should be considered "consumed" by 542 * this call, whether or not we return an error. 543 */ 544 OM_uint32 gssint_convert_name_to_union_name(minor_status, mech, 545 internal_name, external_name) 546 OM_uint32 *minor_status; 547 gss_mechanism mech; 548 gss_name_t internal_name; 549 gss_name_t *external_name; 550 { 551 OM_uint32 major_status,tmp; 552 gss_union_name_t union_name; 553 554 union_name = (gss_union_name_t) malloc (sizeof(gss_union_name_desc)); 555 if (!union_name) { 556 major_status = GSS_S_FAILURE; 557 *minor_status = ENOMEM; 558 map_errcode(minor_status); 559 goto allocation_failure; 560 } 561 union_name->mech_type = 0; 562 union_name->mech_name = internal_name; 563 union_name->name_type = 0; 564 union_name->external_name = 0; 565 566 major_status = generic_gss_copy_oid(minor_status, &mech->mech_type, 567 &union_name->mech_type); 568 if (major_status != GSS_S_COMPLETE) { 569 map_errcode(minor_status); 570 goto allocation_failure; 571 } 572 573 union_name->external_name = 574 (gss_buffer_t) malloc(sizeof(gss_buffer_desc)); 575 if (!union_name->external_name) { 576 major_status = GSS_S_FAILURE; 577 *minor_status = ENOMEM; 578 goto allocation_failure; 579 } 580 581 union_name->external_name->length = 0; 582 union_name->external_name->value = 0; 583 584 major_status = mech->gss_display_name( 585 mech->context, /* SUNW17PACresync */ 586 minor_status, 587 internal_name, 588 union_name->external_name, 589 &union_name->name_type); 590 if (major_status != GSS_S_COMPLETE) { 591 map_error(minor_status, mech); 592 goto allocation_failure; 593 } 594 595 union_name->loopback = union_name; 596 *external_name = (gss_name_t) union_name; 597 return (GSS_S_COMPLETE); 598 599 allocation_failure: 600 if (union_name) { 601 if (union_name->external_name) { 602 if (union_name->external_name->value) 603 free(union_name->external_name->value); 604 free(union_name->external_name); 605 } 606 if (union_name->name_type) 607 (void) gss_release_oid(&tmp, &union_name->name_type); 608 if (union_name->mech_type) 609 (void) gss_release_oid(&tmp, &union_name->mech_type); 610 free(union_name); 611 } 612 /* 613 * do as the top comment says - since we are now owners of 614 * internal_name, we must clean it up 615 */ 616 if (internal_name) 617 (void) gssint_release_internal_name(&tmp, &mech->mech_type, 618 &internal_name); 619 return (major_status); 620 } 621 622 /* 623 * Glue routine for returning the mechanism-specific credential from a 624 * external union credential. 625 */ 626 gss_cred_id_t 627 gssint_get_mechanism_cred(union_cred, mech_type) 628 gss_union_cred_t union_cred; 629 gss_OID mech_type; 630 { 631 int i; 632 633 if (union_cred == (gss_union_cred_t) GSS_C_NO_CREDENTIAL) 634 return GSS_C_NO_CREDENTIAL; 635 636 /* 637 * SUNW17PACresync 638 * Disable this block as it causes problems for gss_add_cred 639 * for HTTP SSO (and also probably causes STC gss.13 to fail too). 640 */ 641 #if 0 642 /* SPNEGO mechanism will again call into GSSAPI */ 643 if (g_OID_equal(&gss_spnego_mechanism_oid_desc, mech_type)) 644 return (gss_cred_id_t)union_cred; 645 #endif 646 647 for (i=0; i < union_cred->count; i++) { 648 if (g_OID_equal(mech_type, &union_cred->mechs_array[i])) 649 return union_cred->cred_array[i]; 650 651 /* for SPNEGO, check the next-lower set of creds */ 652 if (g_OID_equal(&gss_spnego_mechanism_oid_desc, &union_cred->mechs_array[i])) { 653 gss_union_cred_t candidate_cred; 654 gss_cred_id_t sub_cred; 655 656 candidate_cred = (gss_union_cred_t)union_cred->cred_array[i]; 657 sub_cred = gssint_get_mechanism_cred(candidate_cred, mech_type); 658 659 if(sub_cred != GSS_C_NO_CREDENTIAL) 660 return sub_cred; 661 } 662 } 663 664 return GSS_C_NO_CREDENTIAL; 665 } 666 667 /* 668 * Routine to create and copy the gss_buffer_desc structure. 669 * Both space for the structure and the data is allocated. 670 */ 671 OM_uint32 672 gssint_create_copy_buffer(srcBuf, destBuf, addNullChar) 673 const gss_buffer_t srcBuf; 674 gss_buffer_t *destBuf; 675 int addNullChar; 676 { 677 gss_buffer_t aBuf; 678 unsigned int len; 679 680 if (destBuf == NULL) 681 return (GSS_S_CALL_INACCESSIBLE_WRITE); 682 683 *destBuf = 0; 684 685 aBuf = (gss_buffer_t)malloc(sizeof (gss_buffer_desc)); 686 if (!aBuf) 687 return (GSS_S_FAILURE); 688 689 if (addNullChar) 690 len = srcBuf->length + 1; 691 else 692 len = srcBuf->length; 693 694 if (!(aBuf->value = (void*)malloc(len))) { 695 free(aBuf); 696 return (GSS_S_FAILURE); 697 } 698 699 700 (void) memcpy(aBuf->value, srcBuf->value, srcBuf->length); 701 aBuf->length = srcBuf->length; 702 *destBuf = aBuf; 703 704 /* optionally add a NULL character */ 705 if (addNullChar) 706 ((char *)aBuf->value)[aBuf->length] = '\0'; 707 708 return (GSS_S_COMPLETE); 709 } /* ****** gssint_create_copy_buffer ****** */ 710 711